BR102014027755A2 - High voltage isolator fault detector and signaling, High voltage isolator fault detection and signaling method and fault detector and signaling production process - Google Patents

Abstract

Summary "High Voltage Current Isolator Fault Detector and Signaling, High Voltage Current Solver Fault Detection and Signaling Method and Fault Signaling Production Process", Fault Detector and Signaling Method preferably in high voltage networks and the process of producing a fault detector and signaling device.

Description

"FAULT DETECTOR AND SIGNALER IN HIGH VOLTAGE CURRENT INSULATORS, METHOD OF DETECTION AND FAULT SIGNALING IN HIGH VOLTAGE CURRENT INSULATORS AND PROCESS FOR PRODUCT FAULT" APPLICATION FIELD

[1] The present invention describes current isolator fault detector and signaler, preferably applied to high voltage networks; method of detecting and signaling faults in insulators, preferably in high voltage networks and the process of producing a fault detector and signaler. The present invention belongs to the field of electrical engineering.

TECHNICAL BACKGROUNDS

[2] Large-scale transport of electrical energy loads is routed through high voltage grids or high voltage transmission lines. Transmission networks cross huge distances bringing high currents from producers to users. The transmission lines have a nominal voltage level that can reach 750 KV.

[3] The cables that transmit the energy are supported by jacks through insulators, these are necessary as they prevent the energy dissipation through the structure. The brackets must guarantee the dielectric strength of a given value and support the weight of the cables. They are generally made of ceramics, glass or polymers.

[4] Leakage current is the term used to indicate the abnormal flux flow, which generates unwanted current in an electrical circuit. Power leakage can cause damage and serious injury if undetected and eliminated. Current leakage is prevented by the use of insulators.

TECHNICAL STATE ANALYSIS

[5] Within the patent scope, some relevant documents were found which will be described below.

[6] Document PI0201682-6 describes an optoelectronic leakage current sensor where light signals are encoded by actuating the sensor over the optical source. The optical signals produced are transmitted freely and / or by optical fiber to the ground potential. The sensor has high reliability, sensitivity, adequate dynamic range, is immune to compact, lightweight, electromagnetic interference, can be extended for multipoint sensing, does not require in situ energization and is not electrically connected to ground potential while maintaining electrical insulation. It allows to monitor in real time the average value of the leakage currents, as well as their instantaneous waveform in devices such as isolators, bushings, lightning rods and switches under different voltages, such as: 13,8KV, 25,0KV, 34 , 5KV, 69KV, 138KV, 230KV, 345KV, 440KV, 500KV, 750KV and 800KV. The present invention differs from this document in that it describes fault isolator and detector in current isolators in high voltage networks; using as ampere leakage current meter, as well as method of detection and signaling of faults in isolators in which concentrating unit sends the measurement information to the controlling unit; fact not mentioned in that document.

[7] Document PI0600650-7 describes a remote sensor for monitoring and evaluating the degradation of high voltage polymer insulators, comprising a resistive component arranged between the high voltage insulator and the high voltage tower hardware such that the entire Leakage current flowing through the insulator of the power transmission line to the tower hardware passes through said resistive component, giving rise to an AC voltage between terminals A and B, the value of which is monitored and processed by the sensor circuit that compares the value of the voltage measured at terminals A and B with the pre-set reference value equivalent to the maximum leakage current allowed in the isolator which releases a visually perceptible distance signal from the shield whenever a current is detected in the procedure. permanently higher than the reference value. The present invention differs from this document in that it describes fault detector and signaler in current isolators, high voltage grids; using as ammeter leakage current meter, as well as method of detection and signaling of faults in isolators in which concentrating unit sends the measurement information to the controlling unit; fact not mentioned in that document.

[8] Document CN2070452U describes utility model for current leakage alarm for high voltage network isolators. The system consists of a sensor and magnification, rectifier component, measurement display, comparative discrimination cam, audible and visual alarm and power supply. The alarm is triggered automatically and the trigger value can be adjusted optionally, preventing overload on the isolator and consequently an aciderte. The present invention follows from this document, therefore, describes fault detector and signaler in current isolators in high voltage networks; using as a leakage current meter, as well as a method of detecting and signaling faults in isolators in which the concentrating unit sends the measurement information to the controller unit; fact not mentioned in that document.

[9] Document PI0004117-3 describes method and part for detecting current leakage between two cables on two high voltage transmission lines and in particular prevents electric shocks on ECP equipment and train tracks. Two resistors of equal value are connected in series to the transmission line, a resistor sensor is connected to the two resistors, a low voltage source is connected through the resistor sensor and to the ground. A sensor is connected via the resistor sensor to detect leakage current. The sensor is capable of sensing negative and positive current. An external connection to the sensor is provided to a controller which controls the high voltage source between two transmission line cables. The controller has off and on positions depending on the carriage detected by the sensor. The present invention differs from this document in that it describes fault isolator and detector in current isolators in high voltage networks; using as ammeter leakage current meter, as well as detection and signaling method. faults in isolators where the concentrator unit sends the measurement information to the controller unit; fact not mentioned in that document.

[10] US 0,231,210 describes method for polymeric delisolator testing. One embodiment comprises subjecting a graduation shield to a voltage, the shield is oriented from the top of the insulator and to the high voltage probe of the polymeric insulator, detecting the leakage current through the insulator, determining the resistive current component of the leakage current. and buying the value of this resistive current to a predetermined value, thereby determining whether the value of the current is too high, thus having the polymeric insulator not pass the insulation test; If the resistive current value is equal to or less than the predetermined value, the insulator passed the test. The present invention differs from this document in that it describes fault isolator and detector in current isolators in high voltage networks; using as ammeter leakage current meter, as well as method of detection and signaling of faults in isolators in which concentrating unit sends the measurement information to the controlling unit; fact not mentioned in that document.

[11] Document PI9900166-7 describes a method for determining leakage currents in electronic instrumentation systems, particularly applicable to subsea monitoring systems. Determination of the current of: uga is made by a method comprising applying variable voltage steps around a selected operating value which is done at short time intervals; Then the "applied voltage - measured current" data pairs are read on the indicator and / or register and / or controller and the curve of the collected data pairs is adjusted; by applying the least squares error method or any other method capable of determining the unknowns, current leakage resistance measured on the transducer. The present invention differs from this document in that it describes fault isolator and detector in current isolators in high voltage networks; using as ammeter leakage current meter, as well as method of detection and signaling of faults in isolators in which concentrating unit sends the measurement information to the controlling unit; fact not mentioned in that document.

[12] From what is clear from the researched literature, no documents were found anticipating or suggesting the teachings of the present invention, so that the solution proposed here has novelty and inventive activity in relation to the state of the art.

SUMMARY OF THE INVENTION

[13] The present invention discloses a novel and inventive current isolator fault detector and signaler with application in high voltage networks; method of detecting faults in insulators, preferably in high voltage networks and the process of producing detector and fault signaling. The main advantage of this invention is intermittent and remote isolation monitoring, remote fault signaling, part wear determination, preventive or corrective maintenance determination, failure alert capable of anticipating and preventing serious damage, low relative cost, Communication between components is performed wirelessly.

[14] It is therefore an object of the present invention to detect and signal a fault in current isolators, comprising: [15] a) Sensor;

[16] (b) concentrator;

[17] c) Central control system;

[18] d) Solar-based power system.

[19] In a preferred embodiment the sensor comprises: [20] (a) Leakage current measuring equipment;

[21] b) Wireless communication system.

[22] In a preferred embodiment the concentrator comprises: [23] (a) wireless communication system;

[24] (b) GSM remote communication system.

[25] In a preferred embodiment the wireless communication system is provided with RF transceiver.

[26] In a preferred embodiment the leakage current measuring system utilizes the principle of magnetic induction for measurement in the insulator.

[27] In a preferred embodiment the leakage current measuring equipment is a clamp meter.

[28] In a preferred embodiment the present invention is used in 69KV voltage grids.

[29] In a preferred embodiment the present invention detects and signals faults in polymeric insulators.

[30] It is, moreover, an object of the present invention method j) for fault detection and signaling in current isolators comprising: [31] (a) remote measurement of leakage current in isolators;

[32] (b) remote transmission of measurement information;

[33] c) 'Display of information derived from the measurement in a controlling unit;

[34] d) Insulator failure signaling by alarm on the controller unit.

[35] In addition, it is an object of the present invention to produce a current isolator fault detector and signal comprising: [36] (a) design of a solar-based power system;

[37] (b) design of leakage current measuring equipment;

[38] (c) design of wireless communication system;

[39] (d) Design of controlling unit.

[40] These and other objects of the invention will be immediately appreciated by those skilled in the art and companies having an interest in the segment, and if described in detail: sufficient for their reproduction in the following description.

DESCRIPTION OF THE FIGURES

[41] Figure 1 - Solar Panel based Power Unit [1); Power transmission tower structure (2); Inductive principle current sensor (3); Folimeric Isolator (4); Wireless communication system (5); Power transmission line (5); Leakage current (7); Charge controller (8); Battery (9); Concent unit; dora (10); RF transceiver (11).

DETAILED DESCRIPTION OF THE INVENTION

[42] The examples shown herein are intended solely to exemplify one of the numerous ways of carrying out the invention, but without limitation, the scope thereof.

[43] The invention is based on detecting and signaling current isolator failure, preferably in high voltage transmission networks; Fault detection method for current isolators, preferably in high voltage transmission networks and fault detector and signaling production process. The present invention is preferably applicable to mains under 69KV, but is not restricted to this voltage, being applicable to other voltages only with changes in their dimension.

[44] Fault detector and signaler [45] The fault detector and signaler in current isolators comprises: [46] (a) sensor;

[47] (b) concentrator;

[48] c) Central control system;

[49] d) Solar-based power system.

[50] Current isolator failure [51] The present invention understands as current isolator failure, preferably in high voltage transmission networks, leakage current values exceeding predefined values, or leakage currents which may cause system damage and / or failure. Acceptable leakage current values are defined according to the voltage the system is subjected to. The acceptable limit of leakage current may vary depending on the type of isolator used in the system.

[52] Current isolator fault detection method [53] The present invention understands as a current isolator fault detection method a method capable of measuring leakage current, comparing values obtained with predetermined values and signaling the fault, when verified, to the central control unit. The leakage current is measured by a specific equipment, preferably in this invention, clamp meter. The measuring equipment is connected to the unit capable of receiving and processing the information derived from the measurement in this invention concentrating unit. The concentrator will then send the information to a controller unit where the information can be viewed, and alerts issued.

Example 1. Preferred Embodiment [54] Preferably, the high voltage network isolator fault detection and signaling system is comprised of three main parts: the sepsor unit, the concentrator unit and the central control system.

[55] Sensor Unit [56] The sensor unit is equipped with a leakage current measuring equipment, a wireless communication system and a solar-based power system. The leakage current measurement system uses the magnetic induction principle to measure the leakage current in the isolator. Thus a device similar to a clamp meter is placed at the base of the insulator so that the central axis of the insulator is completely enclosed by the device. The sensor element periodically measures the leakage current and sends it to the concentrator module via wireless communication. Sensor units are installed directly on the poles, one unit for each monitored insulator. On adjacent posts the readings are passed from sensors to others until they reach a concentrator module.

[57] Concentrator Module [58] The concentrator module is comprised of a wireless communication system, a solar-based power system, and a GSM network communication system for communication with the centrql control system. The function of the concentrator module is to receive the sensor readings and send them to the central control system via the internet using GSM cellular network technologies such as GPRS / EDGE / HSPDA among others.

[59] Central Control Unit [60] The central control unit is responsible for monitoring the leakage current measurements and signaling by alarms the isolators showing different leakage currents.

[61] Those skilled in the art will enhance the knowledge presented herein and may reproduce the invention in the embodiments disclosed and in eight variants within the scope of the appended claims.

Claims (5)

1) "FAULT DETECTOR AND SIGNALER IN HIGH TEIN CURRENT INSULATORS ARE METHOD OF DETECTION AND FAULT SIGNALING IN HIGH VOLTAGE CURRENT INSULATORS AND PROCESSING PROCESS", characterized by: ) Sensor; b) (oncentrator; c) Central control system; (d) a solar-based power supply system. The sensor according to claim 1 comprises: a) equipment for measuring leakage current; b) Wireless communication system. 3) Use of the flag and fault detector according to claim 1 for monitoring high voltage network isolators. 4) Method for fault detection and signaling in current isolators comprising the steps of: a) Remote measurement of leakage current in the insulators; (b) remote transmission of measurement information; c) Visualization of information derived from the measurement in a controlling unit; d) Signaling of faults in isolators through alarm in the controller unit. (5) Process for producing the fault isolator and detector in current isolators comprising the steps of: (a) design of a salt-based power supply system; (b) design of leakage current measuring equipment; c) Design of wireless communication system; d) Design of controlling unit.